Positioning Device for a Prosthesis Device and System Therefore

ABSTRACT

A positioning device ( 1 ) for placing a prosthesis device ( 2 ) in a spinal column of a living mammal, including at least one holding device ( 6 ) for cooperation with the prosthesis device and for guiding thereof during positioning, wherein it includes fixing means ( 7 ) for fixation with respect to at least one vertebra ( 3,3 ′), and said fixing means includes locking means ( 9 ), which in a first, free state, allows adjustment movement of said holding means ( 6 ) and thereby of the prosthesis device ( 2 ), and in a second, locked state, fixes said holding device ( 6 ) and thereby the prosthesis device ( 2 ) in a selected position. The invention also concerns a system.

FIELD OF THE INVENTION

The invention concerns a positioning device according to the preamble of claim 1 and a system for engagement with vertebrae in a spinal column including such a positioning device.

BACKGROUND OF THE INVENTION

For patients diagnosed disc degeneration, surgical operations are performed more and more often for released troubles. The most common operation for these patients today is still fusion, where an ossified connection of the vertebrae is obtained. Also metallic connection devices can be used. The movability then ceases between the vertebrae in question but the patient will become free from pain. As the patient becomes more active and movable, the segments above and below the fused region will, however, be subjected to greater strains. The risk of new symptoms from surrounding segments thereby increases.

As an alternative to fusion, disc implants have been presented. A known disc prosthesis generally consists of two mutually articulated plates that are positioned between two vertebrae instead of the disc. The positioning of a disc implant results in eliminating the disc that causes pain, reinstating the distance between the vertebrae and reinstating movability between them.

In order to obtain sufficient certainty against a disc implant over time moving in an undesired manner from the intended position between two vertebrae, the two mutually articulated plates of a previously known prosthesis are provided with different kinds of projecting engagement means such as fin-shaped elements, pointed elements, pins and like plural projections for the engagement with the meeting surfaces of the vertebrae.

The operative method that is used for inserting a disc implant requires positioning of the prosthesis from the abdomen side in order to allow access to the vertebral column from the front. The disc to be replaced is cleared out, whereby the vertebrae are drawn apart with the aid of tension pliers.

After using possible instruments shaping grooves in the surfaces of vertebrae for the cooperation with possible projecting protrusions for the purpose of achieving a correct position for the disc prosthesis, the latter is now to be positioned.

According to today's methods, this is achieved by applying the prosthesis on a holder and hammering it in with great force between the vertebrae, guided by the prepared grooves. This step in the operation is very problematic, since the vertebrae tend to be drawn of fall against each other and then it will often be difficult to even bring in the prosthesis between the vertebrae. For this reason the hammering risks to be very violent.

When the prosthesis is finally positioned, which is verified with X-ray radioscopy, said tension pliers are used in order to again span apart the vertebrae and thereby the disc plates of the prosthesis in order to be able to position a joint detail between these plates. Also this step is troublesome and sometimes laborious.

When using prostheses that are completely assembled with the joint detail, this second step is not necessary. Such prostheses are, however, thicker and yet more troublesome to position between the vertebrae. Sometimes, unfortunately, damages to the vertebrae will occur during the positioning of the prosthesis. Such damages can be serious and have serious consequences. For that reason, the surgical operation puts great demands on the skill and experience of the surgeon.

When, finally, everything is place, the operation is terminated and final X-ray is made. Not very seldom it can then be discovered that the disc prosthesis is not correctly positioned in such a way that it is not placed exactly on the middle line or in any other way is not in a proper position. The possibilities of adjusting the position are at this stage almost none.

Since the disc prosthesis rests on the brittle covering plate of the vertebra, the prosthesis must have maximal size in order to support on a relatively strong peripheral rim of the vertebra. Exact positioning is therefore very essential. Patient having osteoporosis are therefore often disqualified for this type of surgical operation depending on lack of congruence between the parts of the disc prosthesis and the vertebra.

Incorrect position results in risk of uncontrolled separation and repositioning of the vertebrae.

AIM AND MOST IMPORTANT FEATURES OF THE INVENTION

It is an aim of the present invention to provide a positioning device of the kind mentioned initially and a system which makes it possible to eliminate or at least reduce the problems of the background art.

These aims are achieved in a positioning device according to the above through the features of the characterizing portion of claim 1. The corresponding advantages are obtained in a system device according to claim 18.

Hereby it is achieved that when spanning apart of the vertebrae in a spinal column, a prosthesis device, such as for example a disc prosthesis or a vertebral prosthesis, can be correctly positioned with respect to at least one vertebra when vertebrae are spanned apart, so that, when the separation is ended, the prosthesis is indeed in the right position. X-ray radioscopy can be used in connection with adjusting the holder means in order to assist the surgeon during the positioning. The invention is, however, not limited to this method but also other corresponding methods for this are possible to use, such as for example translucence with NMR-camera, magnet camera. Also other fluoroscopy and positioning indication methods can be used.

When the vertebrae are released against the prosthesis device, through X-ray radioscopy or the like it can be verified that the final position of the prosthesis device also is the desired position. In the event this is not the case, there is a real possibility of repositioning the prosthesis device after a renewed spanning part of the vertebrae also if it is considered to be less likely that this would be necessary if the positioning is made accurately from the beginning.

After a verified correct positioning, the holding device is released from the prosthesis device, whereafter the used spanning device can be removed permanently. Altogether, the positioning device according to the invention allows essentially more secure and further, more easily handled equipment, which also can be used in a patient-friendly manner with minimized risks of injuries to the patient when it is used.

By providing two fixing elements outgoing from different engagement positions and which are mutually lockable, satisfactory stability is obtained and positioning security after possibility of adjustment.

By providing a universal joint, which is lockable/releasable through said locking means, great positioning freedom is provided.

In particular, it is preferred that the positioning device according to the invention includes distance means in order over connection portions to carry engagement means that are constructed for engagement with two vertebrae at a distance from each other. Hereby the prosthesis device is positioned with respect to these vertebrae, which are preferably located on either side of the operation point.

In particular, it is preferred that said distance means are arranged such that they are capable of changing the degree of separation of said vertebrae when the engagement means are in engagement therewith. Hereby, in the positioning device, the means for spanning apart the vertebrae are integrated which is a considerable advantage, since the arrangement for spanning apart hereby can be constructed optimally for its use to function as a mechanism for spanning apart and further as the base for the fixing means. Greater freedom when removing the old, damaged disc is also achieved. With previously known technology, the tooling for holding apart the vertebrae comprises an obstacle making it difficult to evacuate the old, damaged disc. This process is time consuming and positioning of a disc implant is more difficult. The integrated aspect of this invention essentially simplifies clearing out of the damaged disc, whereby the entire operation is facilitated and speeded up, resulting in a safer operation. The possibility of spanning apart, which is provided according to this aspect of the invention, makes it possible to freely remove the old disc.

The positioning of the holding means will thereby be very stable and no further engagement points, besides the ones belonging to the mechanism for spanning apart, that is the distance means, are necessary. The number of operation points in the patient in the form of holes for screws or the like can thereby be limited to a minimum.

Said distance means preferably include two distance means arranged in parallel carrying the engagement means. The adjustment and handling of the holding means and the prosthesis carried thereon hereby takes place between these parallel arranged distance means. The fixing means are suitably comprised of elongate elements, that are arranged on the distance means and are fixable thereon, which in a common crossing point are lockable, which results in a very stable fixation. The crossing point between these elements is preferably also the starting point for a locking means, which in its locked position fixes the holding means. Preferably the locking means in said locked position also locks the fixing elements in said crossing point.

By providing the fixing elements with each one slotted portion in their free regions, in the free state, sideways adjustment of the crossing point is allowed with respect to the operation point, which can be desirable for providing an accurate positioning of the prosthesis device in its rotational direction.

It is previously known to use so called retractors in the kind of surgical operation of the present type in order to hold the soft parts in the abdomen from the operation point. A system according to the invention includes and preferably carries support devices for that purpose. By fastening them to the distance means, they contribute in an optimal manner to hold the abdomen wall pressed down and the operation field free. The clearing out of the old disc is also simplified with these means.

Corresponding advantages are achieved in a system according to claim 18 and the dependant system claims.

BRIEF DESCRIPTION OF DRAWINGS

The invention will now be described by way of embodiments and with reference to the annexed drawings, wherein:

FIG. 1 shows a positioning device according to the invention during the process of introducing an implant in a spinal column, partly in section,

FIG. 2 shows the positioning device in FIG. 1 in a perspective view,

FIG. 3 shows the positioning device in FIGS. 1 and 2 in a separate perspective view,

FIG. 4 shows the positioning device according to the invention with some details removed for the sake of clarity, and

FIGS. 5 a and b show in different views a holding device for the use with a device according to the invention.

DESCRIPTION OF EMBODIMENTS

FIG. 1 shows a positioning device 1 in the process of positioning a disc implant 2 between two vertebrae 3 and 3′ in a spinal column of a living human being. With 5 are indicated two healthy discs, whereas between the vertebrae 3 and 3′ is cleared out all material from a damaged disc to be replaced by said disc implant 2.

The disc implant 2 is held by a holding device 6 including a fork-shaped head 10, which releasably grips around the disc implant 2 and a rod shaped manipulating element 11 which can be manipulated by hand by a surgeon.

In the embodiment shown in FIG. 1, the manipulating element 11 is controlled by a fixing means 7, which in turn is connected to the distance device 8 (only one shown on FIG. 1), which in turn over engagement means in the form of screws, (indicated with dash dotted lines, and with numerals 4 and 4′), is in engagement with two vertebrae 3, 3′.

The fixing means 7 includes fixing elements 12 (only one shown in FIG. 1) together with a universal joint 9′ which is lockable by means of a locking means 9, wherein the universal joint 9′ in a first, free state allows an adjustment movement including rotations and displacements of the holding means 6 and thereby for the disc implant 2. In a second, locked position, the locking means 9 locks the universal joint 9′ and thereby the holding device 6 and thereby the disc implant 2 in a chosen position.

As is indicated by arrows P1-P6, essentially total freedom of movement is achieved with the shown embodiment with three linear degrees of freedom P1-P3 and three rotational degrees of freedom P4-P6 for the holding device 6. It should be noted that freedom of movement in the length direction of the distance device 8 is obtained by displacement of the fixing element 12 relative thereto. Locking of the locking means 9 can suitably be arranged by means of a smaller rotation of the fixing element 12 with respect of the distance device 8 and thereby friction locking of these elements with respect of each other.

The function of the spanning device of the arrangement is such that the distance device 8 is extendable in the length direction by displacement in such a way that the engagement elements, which thus have been brought to engagement with two vertebrae, because of the extension will cause a change of the degree of separation between these vertebrae 3 and 3′ with respect to each other.

This way the vertebrae can be separated and the space between them be cleared out so that the disc implant 2 without resistance can be inserted between the vertebrae 3 and 3′, accurately be positioned by the surgeon supported by simultaneous X-ray radioscopy until an optimal positioning of the disc implant 2 has been reached. Thereafter the holding device 6 is locked and thereby the prosthesis device in the chosen position with the aid of the fixing means 7, whereafter the distance device 8 is manipulated in such a way that the distance between its outer ends reduces and thereby the vertebrae 3 and 3′ come closer to each other until they come into contact against the outer plates of the disc implant 2. Thereafter a final control is made, by means of X-ray radioscopy or the like, that the disc implant 2 is indeed accurately positioned

If that should not be the case, the degree of separation is again increased between the vertebrae 3 and 3′ and the disc implant 2 is repositioned. When accurate positioning has been reached, the holding device 6 is removed from the disc implant 2, whereafter the distance device 8 and its engagement means 4 and 4′ can be removed from the engagement with the vertebrae.

In FIG. 2, the positioning device 1 is represented in a perspective view in about the same position as is shown in FIG. 1. Hereby is shown that the spanning device belonging to the positioning device 1 includes two sideways separated distance means 8 and 8′, which are position such that it between them is a sufficiently great space for introducing a disc implant (not shown in FIG. 2), which is carried by a fork head 10 of a holding device 6.

From each one of the distance means 8 and 8′, extents fixing elements 12 and 12′, which are longitudinally displaceable on the respectively means 8 and 8′ through sleeve portions 19. The fixing elements 12 and 12′ are united in a crossing point, wherein a locking device 9 engages. The locking device 9 activates and deactivates also a universal joint 9′, which carries the manipulating element 11 of the holding device 6.

In the fixing means 12 and 12′ are arranged longitudinal, elongate through slots 20 and 20′, in which a bolt belonging to the locking means 9 can run. This way, in a free state of the locking means, it is possible to displace the locking device and the universal joint 9′ in height as well as sideways by side displacement of the locking device and the universal joint with respect to the operation point between the vertebrae 3 and 3′.

Further, the distance devices 8 and 8′ are telescopic and thus axially displaceable in order to allow an increased separation of those vertebrae, with which they are in engagement. In the shown example, the distance means 8 and 8′ are not in engagement with two adjacent vertebrae, but with a first vertebra 3′ and a second vertebra 3″, whereas a third vertebra 3 is between these vertebrae. This arrangement allows better space at the place of operation.

Spanning apart the distance devices are made with a pliers device 18, which forces apart two telescopic parts 15′ and 14′ belonging to the distance device 8′. For fixing of an obtained separation position, a locking ring 16′ is used, which locks against the smaller one of the telescopic parts 15′ by means of a locking screw 17. In practice, the spanning apart of the vertebrae are made through step-wise manipulating of the pliers device 18 on first the one on the distance devices a smaller step, locking thereof, thereafter spanning apart of the second distance device a smaller distance, locking thereof etc. etc.

In FIG. 3, the device of FIG. 2 is shown in a different perspective and freed from a spinal column. The distance devices 8 and 8′ have at their ends per se known joint devices for cooperation with the engagement means 4, 4′, which are comprised of per se known skeleton screws. By the engagement means being articulately fastened to the distance devices, excess breaking forces onto the vertebra are avoided in connection with spanning-apart the spinal column. The positioning of the screws 4, 4′ are made in those parts of vertebrae that are least porous, and thereby best resist the forces for spanning apart.

On FIG. 3 are also shown two supporting elements 21 and 21′, preferably lockable and slightly curved, which are arranged for cooperation with (not shown) supporting plates for free holding the operation point from body organs in connection with the surgical operation.

In FIG. 4 are shown essential parts of the positioning according to the invention with some details removed.

A holding device 6 is shown in FIG. 5 a and b. The holding device 6 includes a fork-shaped head 10 with fork shanks 10′ and 10″, which from an engagement position, where they with the aid of the engagement means 24 engage with a disc implant, can be brought to a position where the disc implant is released. This is achieved by the normally curved element 23 between the fork shanks 24, by means of an actuating means 22 in the form of an element inside the rod shape manoeuvring element 11, is brought to a straightened state, where it presses apart the fork shanks 24. See interrupted arrows in FIG. 5 b. The actuating means 22 can be manipulated by hand by a surgeon through a press button outermost on the means 22. The head 10 is preferably made of a plastic material in one piece in such a way that in an unloaded condition, it is in a position for engagement and with a bent element 23.

It should be noted that the invention can be modified within the scope of the claims. The shown embodiment with the positioning device thus directly cooperating with a spanning device in the form of distance means is preferred. However, it is not excluded that the positioning device is separate from the spanning device, and in that case it is arranged such that the fixing means are fastened otherwise to one or a plurality of vertebrae. This is, however, not desired, since it means that further operations with holes etc. in the spinal column have to be made. It, however, makes it possible to use another type of spanning device for separating the vertebrae than the one that is described and shown here.

In order to arrange that a greater space is provided between two distance devices, the attachments of the engagement means can be positioned sideways outwardly, so that the distance devices can be positioned sideways with respect of the axes of the engagement means.

A modification of the spanning device can have one single distance device, which provides spanning apart instead of two that are shown in the Figures. At the ends, this single distance device can have sideward angled portions for cooperation at different positions after their lengths with typically each two engagement means that are engaged with the vertebrae so that the spanning device will have a shallow U-shaped construction with the distance device as web and the sideward angled portions as the shanks of the U. In this case positioning, as an example, may need to be arranged on the one hand on the only distance device, on the other hand on a fixed point on a vertebra.

The arrangement between the distance device (devices) and the engagements means can be different, for example, the arrangement with three independent joints for allowing movements: 1: in a plane parallel with the axis of the distance device, 2: in a plane at right angle to the axis of the distance device, 3: in a plane at right angle against the axis of the engagement means (screw). Independent locking of these joints results in possibility of changing the angles of the screws, also under load, which gives greater possibilities of influencing the positions and the parallelism of the vertebrae.

The fixing means can in that and other cases be constructed otherwise, thus include portions for cooperation directly with a vertebra. Also other kinds of arrangements for locking the holding means can be envisaged, for example with a locking device arranged at the fastening point of the fixing means on the spanning device or on the vertebra itself. It is also possible to have other types of locking and a plurality of separate locks for movements in different directions instead of the integrated lock shown in the Figures. The distance devices can be manipulated otherwise, for example by screwing, with a notched rod with possibly spring loaded locking device, or with a leaver mechanism.

In a simply handled modification, the distance device is manoeuvred with the aid of an adjustment cable, such as a “Bowden cable”, which can have its fastenings on engagement portions on mutually movable parts of a distance device in a manner which is per se obvious for the person skilled in the art. This way spanning apart of two vertebrae is initiated from a distance from the area of spanning apart, which is an advantages, since it enhances control and accessibility. Also other arrangements such as with pawl and rack and corresponding, actuating means with hydraulics or with pneumatics can be used for spanning apart.

It shall be noted that it is not excluded that other prostheses are positioned with a device according to the invention, for example vertebra prostheses. 

1-24. (canceled)
 25. A spinal prosthetic positioning device for positioning a prosthetic device in a spinal column of a living mammal, comprising: a prosthetic device holder for releasable connection with a prosthetic device; and a pair of fixing elements capable of being provided in an unlocked first state where the fixing elements are capable of adjustable movement including rotation and displacement and provided in a second locked state where the holder is substantially locked in a predetermined position.
 26. The device according to claim 25, further comprising a lockable universal joint which locks the pair of fixing elements in the predetermined position.
 27. The device according to claim 25, wherein the holder comprises a fork shaped member.
 28. The device according to claim 26, wherein the lockable universal joint includes a single locking element.
 29. The device according to claim 25, further comprising an elongate member affixed to the holder for connecting the fixing elements to corresponding engagement elements for engagement with said at least one vertebra.
 30. The device according to claim 29, wherein at least one of the engagement elements is capable of extending out in at least one direction.
 31. The device according to claim 30, wherein extension of the corresponding engagement elements is enabled via distance means.
 32. The device according to claim 31, wherein each engagement element includes at least one connecting portion for connecting the engagement element to bone, and wherein a respective connecting portion is capable of extension via the distance means.
 33. The device according to claim 32, wherein at least one engagement elements is capable of engagement with at least two vertebrae via the connection portions.
 34. The device according to claim 30, wherein at least one of the fixing elements is adjustable relative to a corresponding engagement element.
 35. The device according to claim 32, wherein the connection portion comprises an opening for receiving a fastener for fastening the engagement element to bone.
 36. The device according to claim 31, wherein said distance means is selected from the group consisting of: screw means, a rack and pawl, a lever mechanism, and at least one telescopic element for achieving displacement.
 37. The device according to claim 30, further comprising a supporting element for each of the fixing elements, wherein each supporting element cooperates with an external element for providing extension of the engagement portions.
 38. The device according to claim 36, wherein said distance means includes at least two distance devices that are arranged substantially parallel to one another.
 39. The device according to claim 38, wherein each fixing element is capable of being locked relate to a corresponding distance means.
 40. A spinal prosthesis positioning device for positioning a prosthetic device in a spinal column of a living mammal, comprising: at least one holding means to cooperate with a prosthetic device and guide the device during positioning of the device in the spinal column; fixing means for fixing the positioning device with respect to at least one vertebra; and locking means, wherein upon said locking means being in a first, free state, allows adjustment of said holding means, and wherein upon said locking means being in a second, locked state, fixes said holding means in a selected position.
 41. The device according to claim 40, wherein said fixing means includes two fixing elements each initially positioned in a different engagement position, and wherein said fixing elements are mutually lockable using said locking means.
 42. The device according to claim 40, further comprising a universal joint which is lockable and releasable using said locking means.
 43. The positioning device according to claim 40, wherein said locking means is lockable using one single locking element.
 44. The device according to claim 40, wherein said fixing means includes connecting means for connecting the fixing means to a device for engagement with said at least one vertebra.
 45. The device according to claim 44, further comprising distance means for over connecting portions carry engagement means at a distance from each other for engagement with two vertebrae.
 46. The device according to claim 45, wherein said distance means includes displacement means allowing displacement of said connecting portions with respect to each other when the engagement means are engaged with said vertebrae in order to alter the degree of separation of said vertebrae.
 47. The positioning device according to claim 45, wherein said fixing means are adjustable and fixable on said distance means.
 48. The positioning device according to claim 45, wherein said distance means is selected from the group comprising: screw means, rack and pawl, lever mechanism, telescopic elements for achieving displacement of the connecting portions.
 49. The positioning device according to claim 45, wherein said distance means includes mutually displaceable portions for allowing displacement of the connecting portions.
 50. The positioning device according to claim 49, wherein the mutually displaceable portions are telescopic.
 51. The positioning device according to claim 49, wherein the mutually displaceable portions are lockable with respect to each other.
 52. The positioning device according to claim 49, wherein the mutually displaceable portions include cooperation means for cooperating with an external means for providing a mutual displacement of the portions.
 53. The positioning device according to claim 45, wherein said distance means includes at least two distance devices that are arranged substantially parallel to one another, which carries the engagement means.
 54. The positioning device according to claim 53, wherein said fixing means includes at least one fixing element which is lockable on each distance device.
 55. The positioning device according to claim 45, wherein said connection portions include joint means for allowing articulating movements of the engagement means with a respect to said distance means.
 56. A method of implanting a prosthesis device in a spinal column of a living mammal comprising: providing a spinal prosthetic positioning apparatus, the apparatus comprising: a prosthetic device holder for releasable connection with a prosthetic device; and a pair of fixing elements capable of being provided in an unlocked first state where the fixing elements are capable of adjustable movement including rotation and displacement and provided in a second locked state where the holder is substantially locked in a predetermined position. providing a prosthetic device; attaching the prosthesis device to the holder; connecting the holder to the fixing elements; attaching the positioning apparatus to at least one vertebra of the living mammal; and selecting a position for implantation of the prosthesis device into the spinal column of a mammal using the apparatus implanting the prosthetic device at the position; and removing the positioning apparatus from the at least one vertebrae.
 57. The method according to claim 56, wherein either prior to attaching the positioning device to the at least one vertebra, or prior to implanting the prosthetic device, the method includes removing a degenerated vertebral disc which is being replaced by the prosthetic device.
 58. The method of claim 56, further comprising: verifying the position of the prosthesis device, wherein if the prosthesis device is not properly oriented in the spinal column of the living mammal, the method further comprises: repositioning the prosthesis device; and removing the holder from the prosthesis device.
 59. The method according to claim 56, wherein the positioning device further comprises a lockable universal joint which locks the pair of fixing elements in the predetermined position.
 60. The method according to claim 56, wherein the holder comprises a fork shaped member.
 61. The method according to claim 59, wherein the lockable universal joint includes a single locking element.
 62. The method according to claim 56, wherein the positioning device further comprises an elongate member affixed to the holder for connecting the fixing elements to corresponding engagement elements for engagement with said at least one vertebra.
 63. The method according to claim 62, wherein at least one of the engagement elements is capable of extending out in at least one direction.
 64. The method according to claim 63, wherein extension of the corresponding engagement elements is enabled via distance means.
 65. The method according to claim 64, wherein each engagement element includes at least one connecting portion for connecting the engagement element to bone, and wherein a respective connecting portion is capable of extension via the distance means.
 66. The method according to claim 65, wherein at least one engagement elements is capable of engagement with at least two vertebrae via the connection portions.
 67. The method according to claim 63, wherein at least one of the fixing elements is adjustable relative to a corresponding engagement element.
 68. The method according to claim 65, wherein the connection portion comprises an opening for receiving a fastener for fastening the engagement element to bone.
 69. The method according to claim 64, wherein said distance means is selected from the group consisting of: screw means, a rack and pawl, a lever mechanism, and at least one telescopic element for achieving displacement.
 70. The method according to claim 63, wherein the positioning device further comprises a supporting element for each of the fixing elements, wherein each supporting element cooperates with an external element for providing extension of the engagement portions.
 71. The method according to claim 69, wherein said distance means includes at least two distance devices that are arranged substantially parallel to one another.
 72. The method according to claim 71, wherein each fixing element is capable of being locked relate to a corresponding distance means. 